The goal of the postgradual doctoral (PhD) study is the education for scientific work in the area of power electrical engineering and power systems. Graduates of PhD find occupation either as scientific or research workers including industrial development, either as universty teachers and in higher manager functions as well

PhD-graduate obtains high theoretical knowledge and will learn to solve complicated scientific and technological problems by oneself PhD-graduate is ready for further professional rise with a high degree of adaptivity Graduates of PhD find occupation either as scientific or research workers including industrial development, either as universty teachers and in higher manager functions as well

The graduate obtains broad knowledge of subject of high power engineering. The knowledge is build mainly on theoretical background of the subject. Moreover the graduate will obtain deep special knowledge aimed in direction of his/her thesis. The graduate will be able to perform scientific and/or applied research based on up to date theoretical knowledge. The graduate will be able to organize and lead a team of researchers in the studied subject.

doc. Dr. Ing. Miroslav Patočka

1. Alternative power sources in combined systems

   Regarding dynamic development of alternative power sources mutual cooperation of such sources is frequently aksed question nowadays. The aim of this disertation thesis is to design energy system compounded of more cooperating alternative power sources focusing on optimization of energy and economic balance. For veryfying hypothesis there is suggested usage of some simulation software and then compilation of physical analog.

   Tutor: Mastný Petr, doc. Ing., Ph.D.

2. Dispersed power production and its influence on reliability of supply

   Thesis is focused on the possibilities of connecting small power sources to the supply network and evaluation of its influence on the reliability of eletrical power supply regarding its flukiness. The thesis results in the design of system precautions and conditions for the operation of small power sources in supply network.

   Tutor: Mastný Petr, doc. Ing., Ph.D.

3. Electrical machines up to 25MW design and optimization for application in ships.

   The work will be focused on the designe and optimization of electric machines for ships. The design of such machines is influenced by special requirements which have to be fullfilled. Note: The work is supported by project MSM 21630516, project CVVOZE and cooperation with SEM Drásov.

   Tutor: Ondrůšek Čestmír, doc. Ing., CSc.

4. Modeling of the dispersed power generation influence on the grid power quality

   Power generation using renewable power sources and preferably at point of demand is certainly way to satisfaction of ever-increasing need for the environmental protection. Nevertheless, operation of such power generation units leads to physical-technical-economical problems like hardly specifiable power supply reliability, huge time irregularity of the power supply for example under varying climatic conditions, generation of distorted voltages, etc. Thesis is focused on modeling and simulation of the following type power units: combustion engine-induction generator, wind turbine-induction generator, Photovoltaic generator-power inverter, etc. The simulation should be performed for their connection to a representative low and middle voltage power grid, with evaluation of their influence on the voltage characteristic for each power grid node. Cumulative effect of the distributed power units over the power grid is significant as well.

   Tutor: Drápela Jiří, prof. Ing., Ph.D.

5. Raditive heat transfer in electric arc plasmas

   Solution of energy balance in an arc plasma with respect to the radiative heat transfer. Influence of various spectral intervals and various molecular species on the radiative heat transfer in the arc plasma. Development of computer code for calculation of absorption coefficients of given thermal plasmas.

   Tutor: Aubrecht Vladimír, prof. RNDr., CSc.